Hey Mom, Hay Dad!

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• Hey Mom, Hay Dad!  Biofuel is a Growing Power for
  the Future!A Primer on biodiesel feedstocks, oil
  extraction and on-farm biodiesel production.
• Risk Management Strategies for Beginning and
  Small Farmers and Ranchers Conference

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Overview

• Introduction
• The Chemistry of Biodiesel
• Advantages and Disadvantages
• Biodiesel Feedstocks
• Oil Processing
• Small Scale Biodiesel Production
• On-farm Case Studies
• Fuel-making demonstration

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Introduction What is Biodiesel?

• A diesel fuel replacement produced from vegetable
  oils or animal fats through the chemical process
  of transesterification
• Mono-alkyl esters
• Biodiesel can be used in any diesel motor in any
  percent from 0-100 with little or no
  modifications to the engine

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Biodiesel What is it not?
Mixtures of vegetable oil or alcohol with diesel
fuel

• Ethanol or E85

Unprocessed Vegetable Oil
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History of Vegetable Oil Based Fuels

• 1900 - Rudolph Diesel debuted the first diesel
  engine running on peanut oil at the Worlds
  Exhibition in Paris
• He likely used peanut oil at the request of the
  French Government, who were interested in its use
  in their African colonies
• After Diesels mysterious death in 1913,
  development focused on the use of petroleum-based
  fuels

The use of vegetable oils as engine fuels may
seem insignificant today but the such oils may
become, in the course of time, as important as
petroleum and the coal tar products of the
present time. -Rudolph Diesel, 1912
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Why make biodiesel?
Biodiesel
Diesel fuel injectors are not designed for
viscous fuels like vegetable oil
Glycerin (thick)
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The Chemistry of Biodiesel

• All fats and oils consist of triglycerides
• Glycerol/glycerine alcohol
• 3 fatty acid chains (FA)
• Transesterification describes the reaction where
  glycerol is replaced with a lighter and less
  viscous alcohol
• e.g. Methanol or ethanol
• A catalyst (KOH or NaOH) is needed to break the
  glycerol-FA bonds

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Transesterification (the biodiesel reaction)
Methanol (or Ethanol)
Biodiesel
Triglyceride
Glycerol
One triglyceride molecule is converted into three
mono alkyl ester (biodiesel) molecules
Fatty Acid Chain
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Advantages of Biodiesel

• Biodegradable
• Non-toxic
• Favorable Emissions Profile
• Renewable
• Carbon Neutrality

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Advantages of Biodiesel

• Requires no engine modifications (except
  replacing some fuel lines on older engines).
• Can be blended in any proportion with petroleum
  diesel fuel.
• High cetane number and excellent lubricity.
• Very high flashpoint (gt300F)
• Can be made from waste restaurant oils and animal
  fats

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Biodiesel EmissionsSources EPA, 2002 Biodiesel
Emissions Database McCormick, Bob, 2007,
Presentation The Truth about NOx Emissions
TxLED Update
Biodiesel vs. Petroleum Diesel Biodiesel vs. Petroleum Diesel Biodiesel vs. Petroleum Diesel
Emission B100 B20
Carbon Monoxide -47 -12
Hydrocarbons -67 -20
Particulate Matter -48 -12
Sulfates -100 -20
Nitrogen Oxides /- ?? /- ??
Ozone formation (speculated HC) -50 -10
PAH -80 -13
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Climate Change

• Biodiesel has a (nearly) closed carbon cycle
• Biodiesel yields a 78 carbon dioxide (CO2)
  reduction compared to petroleum diesel under
  life-cycle analysis.
• Biodiesel has the most favorable energy balance
  of any liquid fuel
• 3.21 for soy biodiesel

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Vegetable Oil as Feedstocks

• Oil-seed crops are the focus for biodiesel
  production expansion
• Currently higher market values for competing uses
  constrain utilization of crops for biodiesel
  production
• Most oil-seed crops produce both a marketable oil
  and meal
• Seeds must be crushed to extract oil
• The meal often has higher market value than the
  oil

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U.S. Oil-Producing CropsHarvest yields from
USDA NASS service, 2006 figures
Land Crop Yields based on US average 2006 Land Crop Yields based on US average 2006 Land Crop Yields based on US average 2006 Land Crop Yields based on US average 2006
Crop Avg Harvest (lbs) Oil content (avg)2 Gal/acre(approx.)
Peanut 2874 47 175
Canola 1366 43 76
Soybean 2562 19 63
Sunflower 1211 40 63
Camelina1 1300 35 59
Safflower 1069 33 46
Corn 8946 4 46
Cottonseed 819 19 20

• 1 Biodiesel Magazine, Feb. 2007
• 2 OBrian, Richard D. Fats and Oils Formulating
  and Processing for Applications, 2004

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Soybeans

• Primary source for biodiesel production in U.S.
• Market value at 6.60 per bushel (60 lbs) in
  2006, forcast for 7.25-8.25
• Approximately 75.5 million acres of soybeans in
  production (2006)
• Approximately 2 billion gallons
• of oil produced annually
• Large, diverse market demand
• reduces availability for biodiesel
• Meal valuable for livestock

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US Soybean Production Trends
Year Harvested (thous acs) Yield (bu/ac) Production (bu) Price (/bu)
2007 63,285 41.5 2,625,274 7.25-8.25 (projected)
2006 74,602 42.7 3,188,247 6.2
2005 71,252 43 3,063,237 5.66

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CBOT - Soy oil pricing trend
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Canola/Rapeseed

• Rapeseed is a member of the mustard family
• Canola is a variety of rapeseed bred to have low
  levels of erucic acid and glucosinolates (both of
  which are undesireable for human consumption)
• Both spring and winter varieties grown
• Depends on geographical location
• Winter crop in NC
• Good oil yield
• Premium cold flow properties
• 70 of feedstock for EU biodiesel production

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Sunflowers

• Wide geographical range for production
• Market value is high for edible oil and seeds,
  birdseeds
• .08-.12 per lb. market value
• Second largest biodiesel feedstock in the EU

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Peanuts

• Nearly 15 of peanuts are crushed for oil use in
  U.S.
• Value range of 0.23-.30 per lb. of peanut
  depending on state, variety, production system
  (higher for organic)
• .50 per gallon of oil obtained (on average)
• Market value for premium quality edible oil
  currently constrains use in commercial biodiesel
  production
• Production limited to southern regions of U.S.
• Research on industrial peanuts-not suitable for
  human consumption- being conducted at the
  University of Georgia
• Will potentially make peanuts more economically
  feasible as biodiesel source

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Camelina

• Camelina sativa is a member of mustard family
• Summer annual crop suited to grow in semi-arid
  climates and northern U.S.
• Research on variety development and economic
  feasibility are being conducted at Montana State,
  North Dakota State, and Purdue University
• The cost of camelina-based biodiesel would likely
  be 2 per gallon compared to 3 per gallon for
  soy-based
• Variable and fixed costs are 1/3 - 1/4 the cost
  of canola
• 45 to 68 per acre

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Other oil crops

• Algae
• NREL Study (1978-1996) investigated using algae
  as a biofuel feedstock
• Theoretical yields of 10,000 gallons/acre
• 250 times greater than soybean oil
• GreenFuel Technologies - promising
• Oil Palm
• Up to 500 gallons/acre yield
• The most widely produced oil outside of the USA.
• Fruit grows in bunches, each weighing 22-110 lbs.
• Poor cold weather performance

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Oil Processing

• Oil-seed crops must be crushed to extract oil
• This can be done on-farm or at a crushing
  facility
• Small scale systems use mechanical crushing
• Commercial crushers often also use hexane
  extraction
• Hexane is toxic but removes gt99 of oil
• Before conversion oil must be degummed
• Treat with phosphoric acid for 4-8 hours
  (300-1000 ppm for soy, 1000-3000 ppm for canola)
• Water Wash
• Vacuum Drying
• Oil often purchased as Crude, degummed. RBD
  Refined, Bleached, Deoderized

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Disadvantages of biodiesel

• Lower Energy Content
• 8 fewer BTUs per gallon, but also higher cetane
  , lubricity, etc.
• Poor cold weather performance
• This can be mitigated by blending with diesel
  fuel or with additives, or using low gel point
  feedstocks such as rapeseed/canola.
• Stability Concerns
• Biodiesel is less oxidatively stable than
  petroleum diesel fuel. Old fuel can become
  acidic and form sediments and varnish. Additives
  can prevent this.
• Scalability
• Current feedstock technology limits large
  scalability

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Biodiesel Feedstocks

• Total annual production of US Fats and Oils
  (2004)
• 35.3 billion pounds 4.6 billion gallons of
  biodiesel

• Vegetable Oil (Billion lbs/yr)
• Soybean 18.340
• Peanuts 0.220
• Sunflower 1.000
• Cottonseed 1.010
• Corn 2.420
• Others 0.669
• Total Vegetable Oil 23.659

• Animal Fats/Oils (Billion lbs/yr)
• Edible Tallow               1.625
• Inedible tallow              3.859
• Lard Grease             1.306
• Yellow Grease             2.633
• Poultry Fat                   2.215
• Total Animal Fat  11.638

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Diesel fuel consumption

• 2004 US Diesel use 62 billion gallons
• On-road Diesel use 37 billion gallons
• All vegetable oils and fats produced in the U.S.
  could only supply enough biodiesel to replace
  5-10 of current consumption
• More feedstocks are needed to supply the growing
  biodiesel industry!

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Biodiesel Production (gallons)
75 million
30 million
2 Million
500,000
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On-Farm scale oil presses

• Generally two types of mechanical oil presses are
  available
• Screw and Hydraulic
• The presses use mechanical force to compress the
  oil out of the seeds.
• They are typically powered by an electric or
  diesel motor
• Presses vary in capacity (2-27 liters/hr) and
  cost (400 - 13,000)

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Examples of oil presses

• Taby Pressen (Sweden)
• Electric powered screw oil presses
• www.oilpress.com
• Komet (Germany)
• Cold presses (i.e. no heat added)
• Mammoth (US)
• Diesel powered oil press
• Joel Koch (sawyer335_at_gmail.com)
• Kickstart (Kenya)
• Ram press designed for Better World Workshop
• www.kickstart.org

Taby Press
Komet Press
Ram Press
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On Farm Biodiesel Production

• Case studies
• BE Bioenergy/Steven Hobbs
• Piedmont Biofuels
• State Line
• Independence Valley

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On-Farm/Off-road biodiesel

• Not necessary to pay state or federal motor fuels
  taxes (NEW LAWS
• Not necessary to use fuel certified to meet ASTM
  specification D 6751
• Not necessary to use EPA certified fuel
• Can be produced using either waste oils brought
  in or using locally grown energy crops such as
  canola, soy, sunflower, mustard, etc...

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BE Bioenergy/Steven Hobbs

• Victoria, Australia
• Use a 4 biodiesel blend in all on-farm diesel
  vehicles
• Currently grow a mixture of canola and mustard on
  farm, and press canola from neighboring farms.
• Plans to build small-scale biodiesel production
  plant using local feedstocks
• www.bebioenergy.comsteven_at_bebioenergy.com

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Piedmont Biofuels Biofarm

• Located in Moncure, North Carolina
• Powers two tractors and two farm pick up trucks
  on 100 biodiesel (B100) produced at the farm
• Primarily use waste vegetable oil as a feedstock
• Have grown variety trials of canola, rapeseed and
  mustard radish.

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North Carolina Asheboro Zoo

• Biodiesel is made from WVO collected from Zoo
  restaurants
• Zoo restaurants currently provide about 1500
  gallons of used oil. 40 of diesel use at B20
  blend level
• Plans to replace all diesel fuel use with B100
• Biodiesel used in zoo trams, buses, trucks,
  tractors and equipment

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Independence Valley Farm

• Located in Rochester, Washington
• Received Western SARE Producer Grant for
  production development (2000)
• Utilized waste vegetable oil as feedstock for
  biodiesel
• Biodiesel replaced 330 gallons of petroleum-based
  diesel fuel
• Two tractors
• Market van

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Further Resources

• www.attra.org- Small scale oilseed processing
  guide Biodiesel A Brief Overview
• www.bebioenergy.com- Biodiesel, Farming for the
  Future
• www.landinstitute.org- Insights from Sunshine
  Farm
• www.folkecenter.dk- Cold-Pressing of Oilseeds,
  Organic Rape Cultivation, Pure Plant Oil (3
  separate articles)
• www.wsare.usu.edu- On Farm Biodiesel Production
  with WVO
• www.green-trust.org- Sunflower Seed Huller
  Oil-seed Press
• www.oilpress.com Taby-pressen oil seed presses
• www.journeytoforever.org/biofuel_food.html- Food
  or Fuel?
• http//www.unh.edu/p2/biodiesel/index.html
• http//www.eere.energy.gov/biomass/publications.ht
  ml
• www.bioproducts-bioenergy.gov/pdfs/bcota/abstracts
  /19/z347.pdf

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Contact Information

• Piedmont Biofuels
• (919) 321-8260
• www.biofuels.coop